RU18349U1 - DEVICE FOR INHALATION ANNEASIS - Google Patents

Description

 fl r-r-i-Г ™ -% -,. КЛ. A61 m 17/00

DEVICE FOR INHALATION PARKOSIS

The proposed technical solution relates to the field of medical technology, in particular to apparatus designed for inhalation anesthesia with a mixture of oxygen and nitrous oxide and performed on pneumatic automation equipment.

Known "Narcotic respiratory apparatus according to ed. testimonial. JV 344674, M.K.L. A61 m 17/00, which is made on pneumatic membrane elements, the pneumatic relays of which are connected to a valve for gas flow ratio.

It is also known "Device for artificial ventilation of the lungs and inhalation anesthesia according to the patent of Russia No. 957902, M.cl. A 61 H 31/02, A61 M 17/00, made on pneumatic membrane elements. The device is characterized in that it is equipped with a unit for selecting a mode of operation, including a unit for proportional changing the gas flow rate, a pneumatic pickup and a pointer indicating device. This device by technical nature is the closest to the proposed technical solution and is selected as a prototype.

Common in the proposed technical solution and known devices is the use of sources of compressed oxygen and nitrous oxide, a regulator of the ratio of gas consumption, devices connecting to the patient and pneumatic elements, however, their fundamental solution is different.

The main common disadvantages of the known devices, including the prototype, are:

- the inability to anesthetize (anesthesia) in the presence of spontaneous breathing of the patient:

- the inability to maintain the established concentration of gases in the drug mixture when changing the flow of the drug mixture at the outlet of the device:

- the inability to maintain the established flow of the narcotic mixture at the outlet of the device when changing the concentration (ratio of costs) of oxygen and nitrous oxide.

The main objectives of the proposed technical solution are to eliminate the indicated disadvantages of the known devices, to create an apparatus for anesthetizing patients if they have independent breathing, and to provide the apparatus with independent adjustments to the concentration of gases in the narcotic mixture and the amount of gas mixture flow at the device output supplied to the patient.

To solve these problems, the proposed apparatus of inhalation anesthesia, made on pneumatic elements and containing sources of compressed oxygen and nitrous oxide, a gas flow ratio regulator and a device for connecting to a patient, is equipped with an oxygen and nitrous oxide pressure equalization unit, which includes a pressure regulator and pneumatic repeaters are power amplifiers and connected by their inputs to the sources of compressed gas, and the outputs - with the inputs of the regulator of the ratio of gas flow, the outputs of which They are connected through check valves and a breathing bag to a device connecting to the patient. In addition, the input of the first power amplifier repeater is directly connected to the compressed gas source, the input of the second power amplifier repeater is connected to the second compressed gas source through a pressure regulator, the output of which is connected to the control input of the first mash repeater amplifier and the power input of the second mr amplifier, output the first repeater-amplifier of connectivity is connected to the control input of the second, and the outputs of both repeaters of the power amplifiers are connected to the outputs of the equalization unit oxygen and nitrous oxide.

The presented functional diagram of the proposed apparatus of inhalation anesthesia includes:

2 - gas flow rate ratio regulator; 3,4 - check valves;

5- breathing bag;

6 - device connecting to the patient;

7- oxygen pressure regulator;

8, 9 - repeaters-power amplifiers;

10, 11 - ventilation.

The apparatus comprises a unit 1 for equalizing the pressure of oxygen and nitrous oxide. The inputs of block 1 are connected to the sources of compressed oxygen and nitrous oxide (not shown in the drawing), and the outputs are connected to the inputs of the regulator 2 of the gas flow ratio. The outputs of the regulator 2 of the ratio of gas flow are connected through check valves 3 and 4 and a breathing bag 5 with the device

6connection to the patient.

Block 1 for balancing oxygen and nitrous oxide pressures contains an oxygen pressure regulator 7 and two repeaters-amplifiers of errors 8 and 9, with each of repeaters 8 and 9 having a power input, a control input and output, and operates in analog (continuous) mode. The power input of the regulator 7 is connected to a source of compressed oxygen, the output of the regulator

7 is connected to the power input of the repeater 8 and the control input of the repeater 9, the power input of which is connected to the nitrous oxide power source. The output of the repeater 8 is connected with one of the outputs of the unit 1, and the output of the repeater 9 is connected with the second output of the unit 1 and with the control input of the repeater 8.

The controller 2 contains two valves 10 and 11, the control handles of which are mechanically connected, and their connection ensures that when opening one valve, the corresponding closure of the other. The inputs of the valves 10 and 11 are connected to the inputs of the controller 2, and their outputs are connected to the outputs of the controller 2.

The device operates as follows.

is fed to the power input of the power repeater-amplifier 8 and the control input of the power repeater-amplifier 9, to the power input of which nitrous oxide is supplied from the power source N20. Due to the fact that the power repeaters-amplifiers 8 and 9 during their operation provide a gas stream with a pressure equal to the pressure at their control inlet, the oxygen and nitrous oxide flows with a pressure equal to the pressure set at the outputs of the repeaters 8 and 9, respectively at the output of regulator 7. Therefore, when the pressure O2 at the output of regulator 7 changes, the pressure N26 at the output of repeater 9 and at the control input of repeater 8 changes accordingly. As a result, at the outputs of repeaters 8 and 9, and therefore at the output unit 1 and the controller 2 inputs the same set pressure of oxygen and nitrous oxide. In addition, when the ratio of the gas flow of regulator 2 (concentration of O2 and N20 in the mixture) changes, the pressure at the outlet of one of the repeaters 8 or 9 changes, which also leads to a corresponding change in the pressure at the exit of the other repeater. Thus, at any change in the gas flow at the outlet of one of the repeaters 8 or 9 by adjusting the gas flows by the regulator 7 or the regulator 10, equal pressure of the incoming gas is established at the inputs of the regulator 10. Further, oxygen and nitrous oxide from the outputs of the regulator 10 enter through the check valves 3 and 4 into the breathing chamber 5, where they are mixed in the proportion determined by the position of the regulator 2, and form a narcotic mixture, which is supplied to the patient attachment device 6. With each breath, the patient takes a certain portion of the narcotic mixture from bag 5. In this case, the regulator 7 sets such a gas pressure that provides a gas stream at the outlet of the apparatus that does not allow the bag 5 to inflate. The concentration of oxygen and nitrous oxide in the narcotic mixture is set by regulator 2. Non-return valves 3, 4 are included in the apparatus circuit to prevent the flow of gases from one channel to another.

From the description of the functional diagram of the proposed apparatus of inhalation anesthesia, it can be seen that it allows for inhalation anesthesia during independent breathing of the patient and at the same time ensures the preservation of the established concentration of gases in the narcotic mixture when the flow of the narcotic mixture at the outlet of the device is changed. In addition, the device provides a constant flow of the narcotic mixture at its outlet when the concentration of gases in the respiratory mixture changes, which greatly simplifies the work with the device.

Thus, as a result of the proposed technical solution, inhalation anesthesia alnarate ensures the achievement of the objectives and the claimed technical effect.

The claimed technical solution, according to the authors, is not obvious, and its technical effect is quite high.

The possibility of industrial application of the proposed device is not in doubt, since it differs from high-end devices of a similar purpose used in healthcare.

Claims (2)

1. The apparatus of inhalation anesthesia, made on pneumatic elements and containing sources of compressed oxygen and nitrous oxide, a regulator of the ratio of gas flow and a device connecting to the patient, characterized in that it is equipped with a unit for balancing the pressure of oxygen and nitrous oxide, which includes a regulator pressure and pneumatic repeaters are power amplifiers both connected by their inputs to the sources of compressed gas, and the outputs with the inputs of the regulator of the ratio of gas flow, the outputs of which are connected through check valves and a breathing bag with a device connecting to the patient. 2. The apparatus according to claim 1, characterized in that the input of the first repeater-power amplifier is connected directly to the compressed gas source, the input of the second repeater-power amplifier is connected to the second source of compressed gas through a pressure regulator, the output of which is connected to the control input of the first repeater - power amplifier and with the power input of the second repeater-power amplifier, the output of the first repeater-power amplifier is connected to the control input of the second, and the outputs of both repeater-power amplifiers are connected to the output mi unit balancing oxygen pressures and nitrous oxide.